Global Change in a Material World.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Nicholas P Burnett, Talia Y Moore
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引用次数: 0

Abstract

The biological structures that fill the environment around us are derived from materials produced by organisms. These biological materials are key to the mechanical function of organisms. The pathways and growth processes that produce biological materials can influence the mechanical properties of the materials, which can in turn shape the higher level function of the system into which the materials are incorporated. Characterizing a biological system requires thorough knowledge of the underlying materials, including their mechanical function, diversity, evolution, and sensitivity to the environment. Anthropogenic activity is driving rapid and widespread changes to the natural environment and global climate, which are influencing organismal growth and physiology in myriad ways. Here, we briefly introduce a collection of articles that focus on the intersection of anthropogenic activity and the mechanical function of biological materials, as part of the "Global Change in a Material World" bundle for Integrative and Comparative Biology. In addition, we provide an analysis of the current scientific literature in this field, highlighting an urgent need to better understand how changes to our world, driven by human activity, are influencing the fundamental architecture and mechanical performance of organisms across the globe.

物质世界中的全球变化
充斥在我们周围环境中的生物结构来自于生物体产生的材料。这些生物材料是生物体机械功能的关键。产生生物材料的途径和生长过程会影响材料的机械特性,而材料的机械特性反过来又会影响材料所在系统的高级功能。要确定生物系统的特性,就必须全面了解底层材料,包括它们的机械功能、多样性、进化以及对环境的敏感性。人类活动正在推动自然环境和全球气候发生迅速而广泛的变化,这些变化正以各种方式影响着生物的生长和生理。在此,我们将简要介绍一组文章,这些文章侧重于人类活动与生物材料力学功能的交叉点,是《综合与比较生物学》"物质世界中的全球变化 "丛书的一部分。此外,我们还对这一领域目前的科学文献进行了分析,强调迫切需要更好地了解人类活动对我们世界的改变是如何影响全球生物的基本结构和机械性能的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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